![discrete mathematics - Using mathematical induction to prove a generalized form of DeMorgan's Law for sets - Mathematics Stack Exchange discrete mathematics - Using mathematical induction to prove a generalized form of DeMorgan's Law for sets - Mathematics Stack Exchange](https://i.stack.imgur.com/nHWnj.jpg)
discrete mathematics - Using mathematical induction to prove a generalized form of DeMorgan's Law for sets - Mathematics Stack Exchange
![Use Venn diagrams to verify De' Morgan's law of complementation ${\\left( {A \\cup B} \\right)^\\prime } = \\left( {A' \\cap B'} \\right)$ Use Venn diagrams to verify De' Morgan's law of complementation ${\\left( {A \\cup B} \\right)^\\prime } = \\left( {A' \\cap B'} \\right)$](https://www.vedantu.com/question-sets/27c319ce-1b39-4027-8ee1-9ad309899d188433183037191167838.png)
Use Venn diagrams to verify De' Morgan's law of complementation ${\\left( {A \\cup B} \\right)^\\prime } = \\left( {A' \\cap B'} \\right)$
![SOLVED: De Morgan's law for two sets states (A ∪ B)c = Ac ∩ Bc. Use mathematical induction to complete the proof of the following generalization of De Morgan's law: (∪Ai)c = SOLVED: De Morgan's law for two sets states (A ∪ B)c = Ac ∩ Bc. Use mathematical induction to complete the proof of the following generalization of De Morgan's law: (∪Ai)c =](https://cdn.numerade.com/ask_images/9b0b0d1e25d74ee0b72731c4edfd5ed8.jpg)
SOLVED: De Morgan's law for two sets states (A ∪ B)c = Ac ∩ Bc. Use mathematical induction to complete the proof of the following generalization of De Morgan's law: (∪Ai)c =
![Set theory - Set operations- De Morgan's laws - YouTube | Discrete mathematics, Set operations, Theories Set theory - Set operations- De Morgan's laws - YouTube | Discrete mathematics, Set operations, Theories](https://i.pinimg.com/564x/d7/c1/75/d7c175cb2fe6a5bb24c1852c9e0e5f3c.jpg)